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ケネスエネルギー開発

EstablishmentNovember 7, 2014
addressTokyo/Chuo-ku/14-8 Ginza, 6-chome, Ginza Ishii Building
phone03-6403-4951
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last updated:Jun 11, 2025
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ケネスエネルギー開発 List of Products and Services

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- Renewable energy business (solar power generation and biomass power generation) - Battery construction - Development permit application - Project due diligence outsourcing

Solving the disposal cost issue! The exit problem of solar power is proactively addressed through self-consumption and redesign.

Solar power generation equipment is not just about installation and then being done. Rising disposal costs and the risk of equipment shutdown become management challenges.

Kenneth Energy Development has constructed 83 solar power plants over 12 years with a total cumulative cost of 908.4 billion yen. With diverse transaction records including Sharp, Panasonic, Daiwa House, Nomura Securities, Mitsubishi HC Capital, JA Mitsui Leasing, DMM.com, Canadian Solar, and Trina Solar, we support a maximum reduction of electricity costs by 28% and CO₂ reduction simultaneously without stopping high-precision manufacturing and logistics facilities. 【Industry Challenges】 Decisions on the removal of aging equipment are being postponed. The rising risks of industrial waste disposal and removal costs are difficult to predict, making it hard to establish renewal plans. Simply disposing of equipment leaves only costs, and options for reuse or self-consumption are not being considered. 【On-site Pain Points】 On-site personnel continue to operate factories, warehouses, and facilities with equipment that has a risk of failure, unable to stop operations. When removal becomes necessary, costs for equipment shutdown, adjusting scaffolding and transportation routes, waste disposal, and reinstallation arise all at once. Additionally, electricity costs remain high, and the longer the renewal is postponed, the heavier the dual burden of "maintenance costs for old equipment" and "future disposal liabilities" becomes. This dual burden is currently occurring in many locations. 【Root Cause】 The root cause is that solar power equipment is only considered at the time of "installation" without being designed for the exit.

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[For municipalities] Solving disposal cost issues! The key to solar panel disposal problems is redesign.

Utilizing regional resources to build sustainable energy infrastructure.

Local governments are required to introduce renewable energy for regional revitalization. The installation of solar power generation facilities contributes to the revitalization of the local economy and the reduction of environmental impact; however, issues such as equipment aging and removal costs pose challenges. Kenneth Energy Development's solutions propose the introduction of self-consumption solar power generation and consider the redesign and updating of facilities thereafter to address these challenges. 【Usage Scenarios】 - Installation of solar power generation facilities on the roofs of public facilities - Construction of solar power plants by effectively utilizing idle land - Power supply to local residents and income generation through electricity sales 【Effects of Implementation】 - Revitalization of the local economy - Reduction of CO₂ emissions - Reduction of energy costs - Creation of new jobs

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The key to solving the disposal cost issue of old solar panels for data centers is redesign.

Reduce power costs for data centers and implement BCP measures through solar power generation and self-consumption.

In the data center industry, stable operation 24/7, 365 days a year is essential, and the stability of power supply is the most critical issue. Power outages and instability in power supply can lead to serious risks such as data loss and system downtime. Kenneth Energy Development's solar power systems not only reduce electricity costs but also serve as emergency power sources, making them effective for BCP (Business Continuity Planning) measures. The introduction of solar power generation equipment is essential to support the stable operation of data centers and enhance business continuity. 【Usage Scenarios】 - Installation of solar power systems on data center roofs or premises - Construction of self-consumption solar power systems - Utilization as emergency power sources - Achieving both electricity cost reduction and CO₂ emission reduction 【Effects of Implementation】 - Reduction in electricity costs - Strengthening of emergency power source functions - Enhancement of BCP measures - Improvement of corporate ESG evaluations

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[Case Study for Food Manufacturing] Solving Disposal Costs! Self-Consumption and Redesign

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the food manufacturing industry, the future removal costs of aging solar equipment, waste disposal costs, and the risk of equipment shutdown may become management issues. Additionally, the high electricity prices will impact manufacturing costs. It is necessary to not only dispose of the equipment but also to redesign and update it to a self-consumption solar system to achieve both electricity cost reduction and CO₂ reduction simultaneously. 【Usage Scenarios】 - Updating aging solar equipment - Balancing electricity cost reduction and CO₂ emission reduction - Controlling waste disposal costs 【Effects of Implementation】 - Reduction in electricity costs (up to 28%) - Reduction in CO₂ emissions - Control of future removal and waste disposal costs - Reduction of equipment shutdown risks

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[Case Study for the Chemical Industry] Solving Disposal Cost Issues! Proactive Measures through Self-Consumption and Redesign

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the chemical industry, the disposal and renewal of aging solar power equipment may become a challenge for future cost burdens and business continuity. Particularly, as the utilization of by-products and optimization of energy costs are required, the effective use of existing equipment is an important consideration. This article introduces case-based solutions that view the disposal of solar power equipment not merely as a cost, but as an opportunity to redesign and renew it into self-consumption solar power, leading to reductions in electricity costs and CO₂ emissions. 【Utilization Scenarios】 - Delaying the decision to remove aging solar power equipment - Uncertainty regarding future waste disposal and removal costs - The necessity for equipment shutdowns and adjustments to delivery routes - Persistently high electricity costs - Costs arising solely from disposal - Insufficient consideration of self-consumption and reuse 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Improvement in business continuity

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[Case Study for the Pharmaceutical Industry] Solving Disposal Cost Issues! Proactive Measures through In-House Consumption and Redesign

We will transform the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the pharmaceutical industry, the future removal costs of aging solar power equipment, waste disposal costs, and the risk of equipment shutdown may become management issues. Additionally, the persistently high electricity prices could impact manufacturing costs. This article introduces case-based solutions that aim to reduce electricity costs and CO₂ emissions by proposing the redesign and upgrade of existing solar power equipment into self-consumption solar systems, rather than simply "disposing of" them. This approach seeks to reduce disposal costs and create new value. 【Usage Scenarios】 - When the decision to remove aging solar power equipment is being postponed - When future waste disposal and removal costs are unclear - When adjustments to equipment shutdown or delivery routes are necessary - When electricity prices remain high - When disposal alone leaves only costs behind - When options for self-consumption or reuse are not being considered 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Reduction of equipment shutdown risks

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[Case Study for Automobile Manufacturing] Solving Disposal Cost Issues! Proactive Measures through Self-Consumption and Redesign.

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the automotive manufacturing industry, there is a demand for balancing stable operation of manufacturing lines with reducing environmental impact. In particular, the maintenance and future disposal of aging solar power generation equipment can lead to unexpected cost increases and risks to business continuity. In response to these challenges, it is important to propose a solution that not only disposes of existing equipment but also redesigns and updates it to a self-consumption type solar power system, achieving both electricity cost reduction and CO₂ reduction simultaneously. 【Usage Scenarios】 - Factories and warehouses where the decision to remove aging solar equipment has been postponed - Businesses with unclear future waste disposal and removal costs - Facilities that may require adjustments to equipment shutdowns or delivery routes - Situations where electricity costs remain high 【Benefits of Implementation】 - Reduction in electricity costs - Decrease in CO₂ emissions - Control of future disposal costs - Improvement in business continuity

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[Case Study for Electronic Equipment Manufacturing] Solving Disposal Cost Issues! Proactive Redesign for Self-Consumption

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the electronics manufacturing industry, the disposal costs of aging solar equipment and the associated risks can become management challenges. Concerns arise regarding future waste disposal costs, removal expenses, and opportunity losses due to equipment downtime. Additionally, the persistently high electricity costs are also a significant issue. This article introduces a case-based solution that proposes redesigning and updating existing solar equipment into self-consumption solar systems, rather than simply disposing of them, thereby contributing to reductions in electricity costs and CO₂ emissions. 【Usage Scenarios】 - When the decision to remove aging solar equipment is being postponed - When future waste disposal and removal costs are unclear - When adjustments to equipment downtime or delivery routes are necessary - When electricity costs remain high - When disposal alone leaves only costs - When options for self-consumption or reuse have not been considered 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Reduction of equipment downtime risks - Transition from costs to reinvestment

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[Case Study for Electronic Equipment Manufacturing] Solving Disposal Cost Issues! Proactive Redesign for Self-Consumption

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the electronics manufacturing industry, the disposal costs of aging solar power equipment and the associated risks can become management challenges. Concerns arise regarding future waste disposal costs, removal expenses, and opportunity losses due to equipment downtime. Additionally, the persistently high electricity prices are also a significant issue. This article introduces a case-based solution that proposes redesigning and updating existing solar power equipment into self-consumption solar systems, thereby leading to reductions in electricity costs and CO₂ emissions, rather than simply disposing of the equipment. 【Usage Scenarios】 - When the decision to remove aging solar power equipment is being postponed - When future waste disposal and removal costs are unclear - When equipment downtime or adjustments to delivery routes are necessary - When electricity prices are persistently high - When disposal alone leaves only costs - When options for self-consumption or reuse have not been considered 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Reduction of equipment downtime risks - Transition from costs to reinvestment

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[Case Study for Electronic Equipment Manufacturing] Solving Disposal Cost Issues! Proactive Redesign for Self-Consumption

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the electronics manufacturing industry, the disposal costs of aging solar equipment and the associated risks can become management challenges. Concerns arise regarding future waste disposal costs, removal expenses, and opportunity losses due to equipment downtime. Additionally, the persistently high electricity costs are also a significant issue. This article introduces a case-based solution that proposes redesigning and updating existing solar equipment into self-consumption solar systems, rather than simply disposing of them, thereby leading to reductions in electricity costs and CO₂ emissions. 【Usage Scenarios】 - When the decision to remove aging solar equipment has been postponed - When future waste disposal and removal costs are unclear - When equipment downtime or adjustments to delivery routes are necessary - When electricity costs remain high - When disposal alone leaves only costs - When options for self-consumption or reuse have not been considered 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Reduction of equipment downtime risks - Transition from costs to reinvestment

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[Case Study for Electronic Equipment Manufacturing] Solving Disposal Cost Issues! Proactive Redesign for Self-Consumption

We will convert the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the electronic equipment manufacturing industry, the disposal costs of aging solar power facilities and the associated risks can become management challenges. Concerns arise regarding future waste disposal costs, removal costs, and opportunity losses due to equipment downtime. Additionally, the persistently high electricity prices are also a significant issue. This article introduces a case-based solution that proposes redesigning and updating existing solar power facilities into self-consumption solar systems, rather than simply disposing of them, thereby leading to reductions in electricity costs and CO₂ emissions. 【Usage Scenarios】 - When the decision to remove aging solar power facilities is being postponed - When future waste disposal and removal costs are unclear - When equipment downtime or adjustments to delivery routes are necessary - When electricity prices are persistently high - When disposal alone leaves only costs - When options for self-consumption or reuse are not being considered 【Benefits of Implementation】 - Reduction in electricity costs - Reduction in CO₂ emissions - Control of future disposal costs - Reduction of equipment downtime risks - Transition from costs to reinvestment

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[Case Study for the Textile Industry] Solving Disposal Cost Issues! Proactive Measures through Self-Consumption and Redesign.

We will transform the disposal costs and aging risks of solar equipment from "cost" to "reinvestment" through redesign and self-consumption.

In the textile industry, there is a demand for reducing energy costs in the manufacturing process and addressing environmental impact. In particular, the maintenance of aging solar power equipment and future disposal costs may become unexpected management challenges. Additionally, it is emphasized that creating new value is important, not just disposing of waste. Our company provides solutions that achieve both electricity cost reduction and CO₂ reduction through redesign and upgrade proposals for existing solar power equipment, rather than simply "disposing" of it. 【Usage Scenarios】 - Updating aging solar power equipment - Balancing electricity cost reduction and CO₂ emission reduction - Controlling disposal costs and transitioning to reinvestment - Continuous energy supply without stopping factory, warehouse, or facility operations 【Benefits of Implementation】 - Reduction in electricity costs (up to 28%) - Reduction in CO₂ emissions - Mitigation of future disposal costs - Reduction of equipment downtime risk - Transitioning energy costs to reinvestment

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